Human allospecific TLCs generated against HLA antigens associated with DR1 through DRw8

Serologic, cellular, and molecular evidence supports the concept of extreme complexity within the HLA-D region. To study the complexity and fine specificity of the HLA-D region at the level of T -cell recognition, a panel of T-cell clones was generated against alloantigens associated with HLA-DRI through -DRw8. After initial screening of more than 800 clones, 89 representative lines were selected for extensive testing against 204 unrelated stimulator cells. Clone-by-clone correlation analyses were performed to test whether any clones recognized similar or identical epitopes. In addition, clonal reactivity patterns were correlated with known HLA specificities. Twelve clusters of clones were identified with similar reactivity patterns using clone-by-clone correlation analysis. Some groups were significantly correlated with specificities associated with various D-region haplotypes; others had no significant correlation with any defined D-region specificity. Five general types of clones obtained in our study can be categorized as follows: (1) Those recognizing epitopes clearly demonstrating a primary association with the classically defined D-region molecules against which the clones were primed. (2) Clones recognizing epitopes associated with one of the priming antigens and also with another unrelated D-region specificity. (3) Clones detecting epitopes which showed significant correlation with D-region molecules totally different from those against which they were originally primed. (4) Clones with limited reactivity in population studies and no correlation with defined D-region molecules. (5) Clones recognizing class I-associated epitopes.Abbreviations used in this paper cpm counts per minute - DNV double normalized value - EBV Epstein-Barr virus - FCS fetal calf serum - HLA human MHC - HTC homozygous typing cell - LCL lymphoblastoid cell line - MHC major histocompatibility complex - MLC mixed lymphocyte culture - MoAB monoclonal antibody - PLT primed lymphocyte typing - T-max maximized T test - TCGF T-cell growth factor - TLC T-lymphocyte clone     

Human allospecific TLCs generated against HLA antigens associated with DR1 through DRw8

To study the fine specificity of the HLA-D region, a panel of human T-lymphocyte clones (TLCs) was generated against alloantigens associated with HLA-DR1 through DRw8. HLA-DR-homozygous peripheral blood lymphocytes (PBLs) were stimulated with DR-heterozygous PBLs in primary mixed lymphocyte cultures for 4 days. Blasts were cloned by limiting dilution at 0.3 cells/well in the presence of 20% T-cell growth factor and irradiated stimulator cells. Viable clones were subsequently tested in proliferation assays against the original stimulator and a limited panel of stimulators bearing relevant DR specificities. Initial primings produced approximately 800 clones; some recognized DR-associated antigens, 70 recognized only their original stimulator, and approximately 50% were nonresponsive. Analysis on extended stimulator panels revealed alloantigenic complexity within similar DR-associated antigens as recognized by TLCs. The data are consistent with evidence that extreme heterogeneity exists within the HLA-D region.Abbreviations used in this paper cpm counts per minute - DNV double normalized value - EBV Epstein-Barr virus - FCS fetal calf serum - HLA human major histocompatibility complex - HTC homozygous typing cell - LCL lymphoblastoid cell line - MHC major histocompatibility complex - MLC mixed lymphocyte culture - PLT primed lymphocyte typing - TCGF T-cell growth factor - TLC T-lymphocyte clone - T-max maximized T-test analysis     

Restimulation properties of human alloreactive cloned t-cell lines. Dissection ofHLA-D-Region alleles in population studies and in family segregation analysis

Alloactivated human lymphocytes were cloned by limiting dilution. After 1 month in culture with T-cell growth factor several clones incorporated tritiated thymidine when stimulated with the appropriate allogeneic cells. Specificity of restimulation of two primed lymphocyte clones, designated 12-2 and 12-8, was studied in detail after varying periods of culture (up to 50 days). Clone 12-2 cells were stimulated only by cells expressing the HLA-Dw antigens of the original priming cells (Dw3); furthermore, this primed lymphocyte reagent specifically recognized antigens associated with only one of the three distinct Dw3-bearing haplotypes from an informative family (KOH). Clone 12-8 cells, on the other hand, failed to recognize Dw3 antigens in the random panel or on homozygous typing cells (including the original priming cell), but were strongly restimulated by certain cells expressing Dw4 antigens. In addition, within family KOH, these restimulating products segregated with another one of the three Dw3-bearing haplotypes but with none of the three Dw4-bearing haplotypes. These two clones exemplify a hitherto unknown precision in cellular typing of theHLA-D region. Clone 12-2 allows the discrimination of a probably rare and as yet undetected HLA-Dw3 subtypic specificity. Clone 12-8, on the other hand, apparently identifies an allelic system segregating withHLA but distinct from the HLA-D determinants definable by HTC-typing.Abbreviations used in this paper MHC major histocompatibility complex - HLA human leukocyte antigens - PBL peripheral blood leukocytes - HTC homozygous typing cells - MLC mixed leukocyte culture - PLT primed lymphocyte testing - TCGF T-cell growth factor - CTC cultured T cells - Tdr tritiated thymidine     

HLA class II restriction of T helper cell response to cytomegalovirus (CMV). I. Immunogenetic control of restriction

All three HLA class II families (DR, DQ, and DP) are involved in restriction of helper T cell (Th) recognition of nominal antigens including CMV. Only limited studies have been described previously to determine whether restricting determinants of DR and especially DQ are subtypic to the serologically defined DR and DQ specificities, and to what extent restricting determinants are associated with Dw specificities defined in alloresponses. In the present report, we describe a large number of CMV-specific Th clones derived from two different individuals who are seropositive for CMV. Clones were classified as being DR-, DQ-, or DP-reactive based on blocking with monoclonal antibodies. DR- and DQ-restricted clones were then examined in panel studies using antigen-presenting cells (APC) expressing the Dw subtype of the restricting DR-DQ haplotype, as well as APC expressing different Dw subtypes associated with the serologically defined specificity. Unrelated specificities were also included. Our findings show that not only for DR but for DQ as well, the primary restricting determinants appear to be subtypic to the serologically defined antigen; furthermore, subtype restriction for both DR and DQ is very closely associated with single Dw specificities. In several cases in which cross-reactivity among restricting Dw specificities was observed in association with a given DR or DQ haplotype, a molecular basis could be suggested to explain the cross-reacting determinants. A small minority of the clones appeared to be CMV specific, but was restricted by a determinant(s) that is either monomorphic or minimally polymorphic.     

Evidence for polymorphism of MB3 antigens among three HLA-D clusters associated with HLA-DR4

In a previous study, we showed that the three hitherto serologically indistinguishable HLA-D specificities associated with HLA-DR4, HLA-DYT, HLA-DKT2, and HLA-Dw4 can be distinguished on the basis of their reactivity with two distinct la-like-specific monoclonal antibodies, HU-18 and HU-23. In this study, we attempted to identify and characterize Ia-like molecules recognized by HU-18 and HU-23 on a molecular level because la subsets (HLA-DR, MB, MT, or SB) identified by them remained unknown. The results of sequential coprecipitation assays and two-dimensional gel analyses showed that both HU-18 and HU-23 recognize antigenic determinants borne on M133 but not on HLA-DRw6.2 molecules. Because the two monoclonal antibodies, specific for determinants carried on MB3 molecules, show distinct reactivity against homozygous typing cells defining HLA-DYT, HLA-DKT2, and HLA-Dw4, all of which share DR4-MB3, the data indicate that these three HLA-D clusters associated with HLA-DR4 possess distinct MB3 molecules, suggesting the existence of polymorphism in MB3 antigens.     

Detection of HLA-DR associated PLT determinants by alloreactive lymphocyte clones

This study deals with alloreactive T-cell clones which recognize cellular determinants associated with HLA-DR antigens. Two clones, CB55 and DS56, exhibited a PLT specificity that was perfectly associated with DR5. On the other hand, clones CB7, DS1 and HS1 showed PLT reactivity with approximately one-half of the DR5 positive cells and none of the DR5 negative cells, whereas clone MD4 largely reacted with the other half of DR5 positive cells. Another MLR culture generated two alloreactive clones DS6 and DS9 with PLT specificity for DR2. However, these clones did not respond to DR2 cells, which were also positive for the DR2-associated HLA-B7 and B18 antigens. Monoclonal antibody (mAb) inhibition studies showed heterogenous patterns, whereby monomorphic non-DR mAbs inhibited the DR2-associated PLT clones while the DR5-associated PLT clones were inhibited by different groups of anti-DR and non-DR mAbs. These observations suggest the existence of several lymphocyte-activating determinants associated with HLA-DR antigens. This diversity may be an important consideration in studies of the role of HLA-DR in immune mechanisms and transplant compatibility.     

Expression of HLA-DR, MB, MT and SB antigens on human mononuclear cells: identification of two phenotypically distinct monocyte populations

The expression of HLA-DR, SB, MB, and MT antigens in different populations of human mononuclear cells was investigated with the use of monoclonal antibodies that recognize distinct human Ia-like antigens. Our results indicate that in man, as previously reported in other species, two phenotypically distinct populations of monocytes or macrophages can be identified on the basis of expression of Class II MHC antigens. Virtually all circulating monocytes displayed determinants associated with HLA-DR, SB, and MT. In addition, a subpopulation of human monocytes expressed MB/DS-associated antigens, as detected with monoclonal antibodies specific for MB1, MB3, and DS-framework determinants. Most B lymphocytes expressed antigens associated with HLA-DR, and the specificities SB2, SB3, MB1, MB3, MT2, and MT3 were also present. Resting T lymphocytes were unreactive with antibodies that recognize all of the Class II MHC antigens tested. T lymphocytes activated by soluble antigen or alloantigens, and expanded in culture, expressed DR, SB, MB, and MT. The majority of the MB/DS+ cells present in the adherent population were monocytes, because they were phagocytic and had the monocyte-specific marker 63D3. The rest of the cells were not identified. They are likely to include mostly B lymphocytes. The presence of other cells, such as dendritic cells, in this subset needs to be determined.     

Molecular relationships of the human B cell alloantigens, MT2, MB3, MT4, and DR5

The human class II, HLA-linked, B cell alloantigens include the HLA-DR, MB, MT, and Te determinants. Interest in the molecular relationships of these antigens has recently intensified because of their homology to the murine Ia antigens and their possible importance in disease predisposition and transplantation. We have used alloantisera with carefully defined immunochemical as well as serologic specificity, and two immunochemical techniques, sequential immunoprecipitation with analysis by SDS-PAGE and two-dimensional gel electrophoresis, to explore the molecular relationships of the MT2, MB3, MT4, and HLA-DR5 antigenic determinants. The data presented here indicate that 1) all class II molecules that bear the DR5 antigenic determinant also bear the MT2 antigenic determinant; (2) the homozygous DR5 cell line, Swei, expresses at least two structurally distinct class II molecules, both of which bear MT2: one bears the MT2, MB3, and MT4 antigenic determinants, and the second bears the MT2, but not the MB3 or MT4 antigenic determinant; and (3) the DR5 determinant is located on at least one and possibly both of these distinct class II molecules.     

The MT3 specificity resides on a novel human class II antigen distinct from the HLA-DR antigen and DC-like antigen

The MT3 specificity is closely associated with the HLA-DR4, DR7, and DRw9, and is a supertypic specificity. To determine whether the MT3 specificity resides on a novel class II antigen, the MT3 antigen, DR antigen and the DC-like antigen from the DR4-, DR7- and DRw9-homozygous B lymphoid cell lines were identified and compared with one another by two-dimensional gel electrophoresis using alloantisera. The analysis revealed that each of the three antigens exists as a structurally distinct class II antigen in each cell line. The light chains of the MT3, DR and DC-like antigens are different in charge from one another. The molecular weight of the heavy chains of the MT3 and DR antigens is higher than that of the DC-like antigen. On the other hand, no electrophoretic differences are observed between the heavy chains of the MT3 and DR antigens. These results strongly suggest that the MT3 specificity resides on a light chain of a novel class II antigen distinct from the DR antigen and the DC-like antigen. These observations also support our previous proposition that the MT3 antigen belongs to the fourth group of the human class II antigens.     

Population studies of the HLA-linked SB antigens

Using allogeneic T-cell recognition we have previously defined five new histocompatibility antigens designated SB antigens. To standardize typing for these antigens, cryopreserved, primed lymphocytes are now used as standard reagents and a technique of cluster analysis has been modified to score typing results objectively. Two primed lymphocyte reagents are used to define each SB antigen; although derived from independent responder-stimulator combinations, the concordance between the reagents is good (r is greater than 0.86). The SB-antigen distribution in a population of 215 normal donors is consistent with Hardy-Weinberg equilibrium of alleles of a single locus. Estimated gene frequencies ranged between 3 percent (SB5) and 36 percent (SB4) with 31 percent blanks. Analysis of association between the SB antigens and A, B, DR antigens in 200 normal donors revealed that associations were generally weak with a few exceptions, in particular, the A1, B8, DR3, SB1 haplotype and also the B7, DR2, SB5 haplotype.Abbreviations MHC major histocompatibility complex - PLT primed lymphocyte typing - SB secondary B cell (antigen)     

Identification of the MT3 molecule using two-dimensional gel electrophoresis and alloantisera

The MT3 antigen is defined serologically as a DR supertypic specificity and is strongly associated with DR4, DR7, and DRw9. To determine whether the MT3 molecule is distinct from the DR molecule, DR4 and MT3 antigens were immunoprecipitated from 125I-labeled plasma membrane glycoproteins of a DR4-homozygous, MT3-homozygous B lymphoid cell line, Wa, and compared by two-dimensional (2-D) gel electrophoresis. The precipitates with two different anti-DR4 alloantisera and with three different mouse antibodies against human Ia monomorphic determinants gave the same 2-D gel pattern consisting of one heavy chain with a molecular weight of 34 000 and a set of light chains with a molecular weight of 30 000, indicating that these polypeptides are the components of the DR4 molecule. On the other hand, all three anti-MT3 alloantisera used precipitated an identical set of anti-MT3 alloantisera specific light chains with a molecular weight of 30 000, and one heavy chain with a molecular weight of 34 000. The pI of the MT3 light chain was more acidic than that of the DR4 light chain. The amount of MT3 light chains was much smaller than that of DR4 light chains in unlabeled plasma membrane glycoproteins. Thus, we have demonstrated directly using 2-D gel electrophoresis and anti-MT3 alloantisera that the MT3 antigen is a new human Ia molecule distinct from DR4.     

Characterization of human T-lymphocyte clones (TLCs) specific for HLA-region gene products

Clones of lymphocytes, primed in vitro to HLA-DR1; Dw1, were tested for allospecific proliferation on a panel of thirty-one HLA-phenotyped stimulating cells. No clone was restimulated exclusively by cells sharing the DR1; Dw1 priming antigens and most clones were restimulated by subsets of cells bearing DR1; Dw1. Generally, positive responses were at least 20-fold higher than autologous negative controls. Peak proliferative responses occurred around 72 h and varied, depending on the stimulating cell as well as the responding clone. Selected clones were induced to proliferate only by cells incapable of forming rosettes with sheep erythrocytes. Specific proliferation by TLCs was blocked by monoclonal DR-specific antibodies, but not by monoclonal anti-Thy 1.2. Genetic studies demonstrated that TLCs detected some cell-surface determinants that are encoded by genes in linkage disequilibrium with HLA and others that may not be linked to the human major histocompatibility complex.Abbreviations used in this paper ³HTdR tritiated methylthymidine - HTC homozygous typing cell - MHC major histocompatibility complex - HLA human MHC - MLC mixed leukocyte culture - PBL peripheral blood lymphocytes - PLT primed lymphocyte typing - TCGF T-cell growth factor - IL-2 interleukin 2 - TLC T-lymphocyte close     

Primed lymphocyte test in dogs: Restimulation by non-DLA-D determinants and failure to detect lymphoma associated antigens

The primed lymphocyte test (PLT) has been adapted to the dog and utilized in histocompatibility typing and in an attempt to detect lymphoma associated antigens (LAA) in dogs with spontaneously occurring lymphoma. After primary culture lasting 12–14 days, primed lymphocytes could be stimulated by the priming cells to undergo blastogenesis within 2–4 days of secondary culture. Dogs sharing defined DLA-D determinants always showed cross-reactivity in PLT, but dogs showing cross-reactivity in PLT did not necessarily share DLA-D determinants defined by homozygous typing cells. After using two variations of the test, no evidence for reactivity of presumed LAA in the PLT could be found.     

Analysis of stimulating products involved in primary and secondary allogenic proliferation in man

HLA-D typing, primed lymphocyte test (PLT), and DR (Ia-like) serology were compared in a population and family study. A significant positive correlation was observed between theHLA-D region products detected by these three techniques. The strongest correlation observed was between PLT and DR serology, indicating a very close functional similarity between PL and DRw antigens. The DRw antigens and/or PL products appear to be mainly responsible for secondary proliferation. Data are presented which suggest that DRw and/or PL products could be distinct from the Dw products, involved in primary MLR. Nevertheless, a DRw disparity associated with a Dw incompatability is able to increase the intensity of a primary MLR, suggesting that DRw antigens also influence a primary proliferative response.     

Highly polymorphic products of both HLA-DR and HLA-DQ genes contribute to the polymorphism of the HLA-DR w13 haplotype

We studied the polymorphisms of HLA-DR and HLA-DQ products from HLA-DRw13 haplotypes by analyzing the restriction of influenza A-specific cloned T cells from an HLA-DRw13,DQw1,Dw19 homozygous individual. The results show that (1) some functional epitopes, which can be borne by either HLA-DR or HLA-DQ molecules, are strictly correlated with the HLA-Dw19 subtype of HLA-DRw13. This clearly indicates that both HLA-DR and HLA-DQ products contribute to the HLA-Dw19 subdivision of HLA-DRw13. (2) At least two different restricting epitopes are borne by DR products: one is correlated with the HLA-DRwl3 serologically defined specificity, which includes Dw19 and Dw18 haplotypes; the other is correlated with the only HLA-Dw19 subtype of HLA-DRwl3. (3) Restricting epitopes borne by DQ molecules have been found on Dw19 cells only. (4) DQ-restricted clones were unable to react with DQwl APC of any other haplotypes tested, including DR1, DR2-long, DR2-short, and DRw14, demonstrating a high degree of functional polymorphism among the serologically defined DQw1 specificities.Abbreviations used in this paper: APC antigen-presenting cells - cpm count per minute - HAU hemagglutinin units - IL-2 interleukin 2 - MHC major histocompatibility complex - mAb monoclonal antibody - PBM peripheral blood mononuclear cells - PHA phytohemagglutinin - pl isoelectric point - PMA phorbol myristic acetate - SD standard deviation     

HLA class l specific t lymphocyte clones with dual alloreactive functions

Four human T lymphocyte clones exhibiting proliferative responses to class I HLA antigens were isolated from an in vitro mixed lymphocyte culture (MLC). Three clones expressed the Leu-2⁺3^– phenotype and demonstrated proliferation in response to HLA-B8, while the fourth clone expressed the Leu-2^–3⁺ phenotype and proliferated in response to HLA-A2. These clones were also cytotoxic towards cells bearing the same target antigens. Blocking studies utilizing monoclonal antibodies demonstrated that proliferation was triggered by determinants on the class I molecule itself, and these determinants appear to be spatially close to those which determine serologic allospecificity. These findings support the concept that the class I molecules themselves are the weak MLC stimulating determinants previously mapped to the HLA-A and B regions of the major histocompatibility complex.Abbreviations used in this paper B-LCL B-lymphoblastoid cell line - cpm counts per minute - FCS fetal calf serum - HS human serum - ³H-TdR tritiated thymidine - IL-2 interleukin-2 - IL2-CM interleukin-2 containing conditioned medium - MHC major histocompatibility complex - MLC mixed lymphocyte culture - MoAb monoclonal antibody - PBL peripheral blood mononuclear leukocytes - PLT primed lymphocyte test     

HLA-DR typing "at the DNA level": RFLPs and subtypes detected with a DR beta cDNA probe

The HLA-DR beta gene, used as a hybridization probe, detects RFLPs that correlate with HLA-DR specificities. Using genomic DNA from more than 200 individuals, we have carried out a population study with a cDNA probe for the DR beta chain, which, under appropriate conditions, does not cross-hybridize with genes from other HLA-D subregions (e.g., DP and DQ). We first assessed the correspondence between serologically defined HLA-DR types and DNA patterns obtained after digestion with TaqI and found that DNA patterns allowed us to identify most specificities. Only two pairs of antigens are not distinguishable: with the DR beta probe alone we cannot distinguish DR3 from DRw6 or DR7 from DRw9. However, the correct assignment can always be made for the first pair by hybridizing the same digests with a DQ alpha or DQ beta probe. Thus DR typing from the DNA patterns is practical and accurate. We also looked for serologically undetectable subtypes. RFLPs revealed high-frequency subtypes for the specificities DR 2, 3, 5, w6, 7, and w9. Some of these are more accurately viewed as variant haplotypes, since the relevant variation is probably not at the DR beta locus that determines the serological specificities but rather at other closely linked and highly homologous DR beta loci such as DR beta-III. Nevertheless, the existence of variant haplotypes for so many specificities indicates a wealth of polymorphic variation beyond that detected serologically and provides more specific markers for studies of various diseases associated with HLA-DR specificities.     

Heterogeneity ofHLA defined in PLT: A cellular assay detects differences not seen using HLA-DRw serology

The primed lymphocyte typing test (PLT) is used to detect the gene products of theHLA-D region which are responsible for secondary restimulation of cells primed in MLC. Alternatively, products of theHLA-D region may be detected serologically using antisera directed against a subpopulation of lymphocytes; these are the so-called DRw determinants. The PLT was used to see if it were possible to detect heterogeneity within a given serologically defined group using a cellular test. As priming combinations, we used family members identical for one haplotype and differing in theHLA-A, B andC regions, but not theD region of the second haplotype. Our results indicated that it was possible to prime against this second haplotype and that the segregation of the difference followedHLA. Therefore, using a cellular test it was possible to detect differences among cells belonging to a given DRw group. This suggests that PLT can be a useful tool to identify those serological groups which are composed of heterogenous determinants. In addition, it points out the problem in using any one test to establish identity of theHLA-D region, especially for clinical purposes.     

Antigen-specific HLA-restricted human T-cell lines

The results presented provide evidence that the HLA specificity known as MT3, BR4, or Hon7 can serve as a restriction epitope for the proliferation of certain T cells responding to mumps viral antigen. This restriction determinant was found to be HLA-linked in family studies, and to segregate centromeric to a crossover between HLA-B and DR in one family. In the population studied, the specificity was found to be associated with the DR antigens DR4, DR7, and DRw9, which are known to be associated with MT3. The ability of accessory cells to present mumps antigen in the context of this supertypic restriction determinant was blocked by a monoclonal antibody specific for MT3. Since MT3 (BR4, Hon7) has been shown to be expressed on molecules distinct from DR, our experiments suggest that such molecules are functionally important in antigen presentation to T cells.     

Functional definition of HLA-DR and -DQ epitopes specific for DR2-short,DwFJO haplotype

T-lymphocyte clones specific for the influenza A/Texas virus were obtained by limiting dilution of activated T cells from an HLA A2/3, B7/39, Cw -/-, DR2-short/2 short, DQw1/w1, DwFJO/FJO donor. Among the proliferating clones studied, and irrespective of their antigenic specificities, most of them were restricted by epitope(s) on HLA-DR molecules present only on DR2-short/DwFJO cells but not on DR2-negative or DR2-long positive (Dw2, Dw12, Dw-) cells. Two clones were restricted by epitopes borne by DQ products. Here again, these epitopes were present on DR2-short/DwFJO but not on DR2-long, DQw1 (Dw2, Dw12) cells, indicating that the DQwl molecules of DR2-long and DR2-short haplotypes are different. Taken together, these results indicate that the DR2-short, DwFJO haplotype is characterized by both HLA-DR- and DQ-specific molecules. Finally, one clone was restricted by an epitope shared by DR products from DR2 short/DwFJO, DRw11, and DRw13 haplotypes. This latter functional determinant has never been described until now.Abbreviations used in this paper APC antigen-presenting cells - HAU hemagglutinin units of influenza virus - HLA human leukocyte antigens - HTC homozygous typing cells - IL-2 interleukin 2 - mAb monoclonal antibody - MHC major histocompatibility complex - MLR mixed lymphocyte reactions - PBM peripheral blood mononuclear cells - %RR relative response percent